Mobile printer

ABSTRACT

A three-dimensional printer for providing additive material to an object in need thereof includes a non-transitory computer memory; a processor in data communication with the computer memory; a material reservoir; an output device in communication with the material reservoir; a scanning device for obtaining existing contour information about the object; and a contour database accessible by the processor which has contour information about the object. The scanning device is in data communication with the processor. Programming causes: (1) the scanning device to obtain the existing contour information; (2) the computer memory to store the obtained existing contour information; and (3) the processor to create a print file based on data from each of: (a) the obtained existing contour information, and (b) the contour database. Further programming selectively actuates the output device, utilizing the print file, to apply the material from the material reservoir to the object in need thereof.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent application Ser. No. 15/958,867, filed Apr. 20, 2018 and entitled Mobile Printer, which is pending and which claims priority to U.S. Provisional Patent Application No. 62/487,621, filed Apr. 20, 2017, entitled Mobile Printer, the disclosure of each of which is incorporated by reference herein in its entirety.

BACKGROUND

Printing devices compatible with word processing and graphics software are standard pieces of office equipment and are also commonly found in homes. Such devices are typically large and operate using inkjet or laser technologies—though other printing technologies (e.g., thermal technology) may also be used, and especially in printers that are more mobile. Example PRIOR ART mobile printers are sold by Brother International Corporation under the trademark POCKETJET®. One particular PRIOR ART mobile printer 5 is shown in FIGS. 1a and 1b and described in User's Guide, PJ-522 and PJ-523 Mobile Printer, by Brother International Corporation. As the User's Guide describes, even when printers are marketed as mobile, they move paper across the printing technology and are wider than the piece of paper to be printed upon.

Embodiments of the current invention relate generally to mobile printers.

SUMMARY

The following presents a simplified summary of the invention in order to provide a basic understanding of some aspects of the invention. This summary is not an extensive overview of the invention. It is not intended to identify critical elements of the invention or to delineate the scope of the invention. Its sole purpose is to present some concepts of the invention in a simplified form as a prelude to the more detailed description that is presented elsewhere.

According to one embodiment, a mobile printer is provided for use with a stationary piece of paper. The mobile printer includes a non-transitory computer memory, a processor in data communication with the computer memory, an input device in data communication with the processor, a housing configured to rest atop the paper, a carriage located inside the housing, carriage actuators for moving the carriage laterally and transversely adjacent the paper, a scanning device coupled to the housing and positioned to obtain existing-indicia information, and a printing unit coupled to and movable with the carriage. The scanning device and the carriage actuators are in data communication with the processor. The printing unit includes an output nozzle and a supply passage for supplying ink from an ink reservoir to the output nozzle. Programming causes the scanning device to obtain the existing-indicia information, the computer memory to store the obtained existing-indicia information, the carriage actuators to selectively move the carriage, and the ink to pass from the output nozzle.

According to another embodiment, a mobile printer is provided for use with a stationary piece of paper. The mobile printer includes a non-transitory computer memory, a processor in data communication with the computer memory, an input device in data communication with the processor, a housing configured to rest atop the paper, a scanning device in data communication with the processor, an ink reservoir, and a stationary array of output nozzles in communication with the ink reservoir. The scanning device is coupled to the housing and positioned to obtain existing-indicia information. Programming causes the scanning device to obtain the existing-indicia information, the computer memory to store the obtained existing-indicia information, and the ink to pass from the stationary array of output nozzles.

According to still another embodiment, a mobile printer is provided for use with stationary indicia-receiving material. The mobile printer includes a non-transitory computer memory, a processor in data communication with the computer memory, an input device in data communication with the processor, a housing configured to rest adjacent the indicia-receiving material, a scanning device in data communication with the processor, an ink reservoir, an output nozzle in communication with the ink reservoir, and a nozzle actuator in data communication with the processor. The scanning device is coupled to the housing and positioned to obtain existing-indicia information. Programming causes the scanning device to obtain the existing-indicia information, the computer memory to store the obtained existing-indicia information, and the nozzle actuator to selectively activate to cause ink from the ink reservoir to pass from the output nozzle.

According to yet another embodiment, a mobile printer is provided for use with a transfer sheet overlying a stationary indicia-receiving material. The transfer sheet is configured to change pigmentation of areas of the indicia-receiving material underlying areas of the transfer sheet receiving focused waves. The mobile printer includes a non-transitory computer memory, a processor in data communication with the computer memory, an input device in data communication with the processor, a housing configured to rest adjacent the indicia-receiving material, a scanning device in data communication with the processor, and a transmitter in data communication with the processor. The scanning device is coupled to the housing and positioned to obtain existing-indicia information. Programming causes the scanning device to obtain the existing-indicia information, the computer memory to store the obtained existing-indicia information, and the transmitter to activate (causing the transfer sheet to change pigmentation of areas of the indicia-receiving material underlying areas of the transfer sheet receiving focused waves from the transmitter).

In another embodiment of the invention, a three-dimensional printer for providing additive material to an object in need thereof includes a non-transitory computer memory; a processor in data communication with the computer memory; a material reservoir; an output device in communication with the material reservoir; a scanning device for obtaining existing contour information about the object; and a contour database accessible by the processor which has contour information about the object. The scanning device is in data communication with the processor. Programming causes: (1) the scanning device to obtain the existing contour information; (2) the computer memory to store the obtained existing contour information; and (3) the processor to create a print file based on data from each of: (a) the obtained existing contour information, and (b) the contour database. Further programming selectively actuates the output device, utilizing the print file, to apply the material from the material reservoir to the object in need thereof.

According to yet another embodiment of the invention, a mobile printer for providing additive material to a three-dimensional component piece in need thereof includes a non-transitory computer memory; a processor in data communication with the computer memory; a housing configured to rest atop the three-dimensional component piece; a scanning device for obtaining existing contour information, the scanning device being in data communication with the processor; means in data communication with the processor for causing the material to pass from the output device; and a contour database accessible by the processor, the contour database having contour information. The housing has a first material reservoir; and an output nozzle in communication with the material reservoir. Programming causes: (1) the scanning device to obtain the existing contour information; (2) the computer memory to store the obtained existing contour information; and (3) the processor to create a print file based on data from each of: (a) the obtained existing contour information, and (b) the contour database. Programming further selectively actuates the means for causing material from the first material reservoir to pass from the output nozzle to apply the material to the three-dimensional component piece in need thereof, and in so doing, utilizes the print file.

In still yet another embodiment, a three-dimensional printer for providing additive material to an object in need thereof includes a non-transitory computer memory; a processor in data communication with the computer memory; an input device in data communication with the processor; and a housing configured to rest atop the three-dimensional object. The housing has a first material reservoir holding a first material; a first output device in communication with the first material reservoir; a second material reservoir holding a second material; and a second output device in communication with the second material reservoir. Additionally provided as part of the printer is a scanning device is provided for obtaining existing contour information, the scanning device being in data communication with the processor; means in data communication with the processor for causing the first material to pass from the first output device; means in data communication with the process for causing the second material to pass from the second output device; and a contour database accessible by the processor, the contour database having contour information. Programming causes: (1) the scanning device to obtain the existing contour information; (2) the computer memory to store the obtained existing contour information; and (3) the processor to create a first print file based on data from each of: (a) the obtained existing contour information; and (b) the contour database. Further programming (4) selectively actuates the means for causing the first material from the first material reservoir to pass from the first output device to apply the first material to the three-dimensional component piece in need thereof utilizing the first print file; (5) causes the processor to create a second print filed based on date from the input device; (6) selectively actuates the means for causing the second material from the second material reservoir to pass from the second output device to apply the second material to the three-dimensional component piece thereof utilizing the second print file.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1a is a perspective view of a PRIOR ART printer.

FIG. 1b is a perspective view of the PRIOR ART printer of FIG. 1a , shown in use with a piece of paper.

FIG. 2 is a top perspective view of a mobile printer, according to an embodiment of the current invention.

FIG. 3 is a bottom perspective view of the mobile printer of FIG. 2.

FIG. 4 is a top view of the mobile printer of FIG. 2.

FIG. 5 is a bottom view of the mobile printer of FIG. 2.

FIG. 6 is a bottom view of the mobile printer of FIG. 2, shown with the printing cover at an open position.

FIG. 7 is a block diagram illustrating aspects of the mobile printer of FIG. 2.

FIG. 8 is a block diagram illustrating other aspects of the mobile printer of FIG. 2.

FIG. 9 is a block diagram illustrating still other aspects of the mobile printer of FIG. 2.

FIG. 10 is a flowchart illustrating various steps performed by the mobile printer of FIG. 2.

FIG. 11 is a block diagram illustrating a mobile printer according to another embodiment of the current invention.

FIG. 12 is a block diagram illustrating a mobile printer according to still another embodiment of the current invention.

FIG. 13 is a block diagram illustrating a mobile printer according to yet another embodiment of the current invention.

DETAILED DESCRIPTION

FIGS. 2 through 10 illustrate a mobile printer according to an embodiment 100 of the current invention. The mobile printer 100 includes a housing 101, non-transitory computer memory 110, a processor 120, a scanning device 130, an input 140, a carriage 150, carriage actuators 160, a printing unit 170, and various programming as discussed below.

The housing 101 (FIGS. 2 through 6) is portable and may be constructed of plastics, composites, metals, and any other appropriate materials and combinations of materials. In some embodiments, the housing 101 may have a width 101 a of about 2 ½ to 3 inches, a length 101 b of about 5 to 5 ½ inches, and a height 101 c of about ½ to 1 inch. In other embodiments, the width 101 a may be about 9 to 9 ½ inches, the length 101 b may be about 11 ½ to 12 inches, and the height 101 c may be about ½ to 1 inch. In still other embodiments, other appropriate dimensions 101 a, 101 b, 101 c may be selected so long as the housing 101 remains configured to rest atop stationary indicia-receiving material 10 and be easily handheld. And in yet other embodiments, the housing 101 may be incorporated into a larger system or subsystem; for example, the housing 101 may be part of a robotic “hand” or industrial manufacturing machinery.

The illustrated housing 101 has a top side 102 a, a bottom side 102 b, and opposed ends 102 c, 102 d. FIGS. 3, 5, and 6 illustrate a door 104 at the bottom side 102 b that is movable to selectively expose and cover an inner area 105. The door 104 may slide along a track, pivot, be entirely separable, or otherwise move to expose and cover the inner area 105. The bottom side 102 b may include spacers 106 upon which the housing 101 may rest when positioned with the bottom side 102 b pointed down.

The computer memory 110 (FIG. 7) may include volatile and non-volatile memory, and any appropriate data storage devices whether now existing or later developed may be used. Further, the computer memory 110 may be a unitary memory in one location, or may alternately be a distributed computer memory such that one portion of the computer memory is physically separate from another portion of the non-transitory computer memory. In other words, discrete computer memory devices may be linked together (e.g., over a network) and collectively form the computer memory 110. While this document shall often refer to elements in the singular, those skilled in the art will appreciate that multiple such elements may often be employed and that the use of multiple such elements which collectively perform as expressly or inherently disclosed is fully contemplated herein.

The processor 120 (FIG. 7) may be any appropriate device, whether now existing or later developed, which performs the operations specified by the various programming used by the mobile printer 100. The processor 120 may be electronic circuitry located on a common chip or circuit board, or may be a distributed processor such that one portion of the processor is physically separate from another portion of the processor. The processor 120 is in data communication with the computer memory 110, the scanner 130, the input 140, the output 145, the carriage actuators 160, and the printing unit 170.

The scanner 130 (FIG. 7) includes at least one camera to capture existing-indicia information 1010 (which may include, for example, text and non-textual graphics on indicia-receiving material 10). The indicia-receiving material 10 may be, for example, paper, lumber, building materials, industrial products, and consumer goods. In some embodiments, it may be desirable for the indicia-receiving material 10 to be generally flat, at least on an indicia-receiving surface. The scanner 130 may further include the ability to detect color (or “tone”) information 1020, either through the camera 130 or different sensors. Tone information 1020 may include, for example, information about the tint of the existing indicia at various locations of the indicia-receiving material 10. FIG. 6 shows that multiple sensors 130 may be coupled to the housing 101, positioned to obtain the existing-indicia information 1010 while the housing 101 rests atop the indicia-receiving material 10.

The input 140 (FIG. 7) may be any input device (whether now existing or later developed) allowing a person to input data 1030 to the processor 120 for storage in the computer memory 110. For example, the input 140 may be a touchscreen 141 (as shown in FIGS. 2 and 4), a keyboard, a computer mouse, a microphone 142 (as shown in FIGS. 2 and 4), or a barcode reader. Data 1030 is discussed in additional detail below.

The output 145 (FIG. 7) may be any appropriate output device (whether now existing or later developed). For example, the output 145 may be one or more of a visual display (e.g., touchscreen 141 shown in FIGS. 2 and 4) and an audible output (e.g., speaker 146 shown in FIGS. 2 and 4). The output 145 may be used to entertain the user in addition to providing interaction with the processor 120. For example, the output 145 may provide visual/audible programming (either preset or selectable), requests for data or user instructions, et cetera.

The carriage 150 (FIG. 6) is located in the housing inner area 105 and supports the printing unit 170. The carriage 150 is selectively moved (preferably in at least two dimensions—laterally and transversely adjacent the indicia-receiving material 10) by the carriage actuators 160. In essence, the carriage 150 and the carriage actuators 160, together with software and processing, equate to a computer numerical control (“CNC”) system. One prior art CNC system is disclosed in U.S. Pat. No. 6,218,639 to Bulle, which forms part of the current disclosure. As shown in FIG. 8, the carriage actuators 160 may include a drive mechanism 161 and rail 162 system which allows lateral travel and a drive mechanism 163 and rail 164 system which allows transverse travel. Drive mechanisms providing travel along rails in CNC systems are disclosed, for example, in Bulle. Those skilled in the art will appreciate that the rails may be channels or other appropriate structure.

The printing unit 170 is coupled to and movable with the carriage 150, as shown in FIG. 6. As shown in FIG. 9, the printing unit 170 may include an output nozzle 172, a supply passage 174 for supplying the ink 20 from an ink reservoir 180 to the output nozzle 172, and a nozzle actuator 175 in communication with the processor 120 for causing the ink 20 to pass from the output nozzle 172. Nozzle actuators are well known in the art, and may include a heater (often referred to as thermal inkjet or thermal Drop On Demand “DOD” printing) or a piezoelectric material (often referred to as piezo inkjet or piezo DOD printing).

Returning now to FIG. 7, the computer memory 110 has various files and subfiles for containing programming and data. A user input file 1000, existing-indicia information 1010, a scanner software file 1100, an indicia database 1200, and a print file 1300 are illustrated. The indicia database 1200 includes font information 1210 (e.g., information allowing fonts to be recognized in existing indicia, and allowing fonts to be utilized) and contour information 1220 (e.g., geometric routines for matching/filling lines in the existing indicia, and for creating other lines/shapes). Programming, for example in the scanner software file 1100, causes the scanning device 130 to obtain (in some embodiments, repeatedly obtain) the existing-indicia information 1010, and causes the obtained information 1010 to be stored. Other programming (e.g., in the user input file 1000) allows input data 1030 to be obtained through the input 140 and stored. The input data 1030 may include, for example, desired textual and non-textual indicia to be printed on the indicia-receiving material 10. And still other programming causes the processor 120 to create the print file 1300 based on data from the existing-indicia information 1010, the user input data 1030, and the indicia database 1200. And using the print file 1300, the processor 120 causes the carriage actuators 160 to selectively move the carriage in a defined manner and causes the nozzle actuator 175 to expel the ink 20 from the output nozzle 172 to apply the ink 20 to the indicia-receiving material 10. If the existing-indicia information 1010 is repeatedly obtained, programming may compare the obtained existing-indicia information 1010 to identify movement of the housing 101 relative to the paper 10—allowing adjustments to be made in the printing process.

The following description is an example of the mobile printer 100 in use with paper 10 according to an embodiment. At step S100 of method S10, the processor 120 obtains user input data 1030 via the input 140 and stores the user input data 1030 in the computer memory 110. And at step S110, the processor 120 obtains existing-indicia information 1010 via the scanner 130 and stores the existing-indicia information 1010 in the memory 110. At step S120, the processor 120 creates print file 1300 based on data from the existing-indicia information 1010, the user input data 1030, and the indicia database 1200.

After step S120, the process S10 proceeds to steps S130 and S140. There, the processor 120 causes the carriage actuators 160 to move the carriage 150 in accordance with the print file 1300, and causes the nozzle actuator 175 to selectively allow the ink 20 to flow through the supply passage 174 and the output nozzle 172 to apply the ink 20 to the paper 10. After steps S130 and S140, the processor 120 determines at S150 if the print file 1300 has been fully executed for the ink 20. If not, the process S10 returns to steps S130 and S140; if so, the process S10 ends at step S160.

FIG. 11 illustrates another mobile printer 200 that is substantially similar to the embodiment 100, except as specifically noted and/or shown, or as would be inherent. Further, those skilled in the art will appreciate that the embodiment 100 (and thus the embodiment 200) may be modified in various ways, such as through incorporating all or part of any of the various described embodiments, for example. For uniformity and brevity, reference numbers from 200 to 299 may be used to indicate elements corresponding to those discussed above numbered from 100 to 199 (e.g., computer memory 210 corresponds generally to the computer memory 110, processor 220 corresponds generally to the processor 120, scanner 230 corresponds generally to the scanner 130, input 240 corresponds generally to the input 140, output 245 corresponds generally to the output 145, et cetera), though with any noted, shown, or inherent deviations. And reference numbers 2000 to 2999 may be used to indicate elements corresponding to those discussed above numbered from 1000 to 1999 (e.g., user input file 2000 corresponds generally to the user input file 1000, existing-indicia information 2010 corresponds generally to the existing-indicia information 1010, user input data 2030 corresponds generally to the user input data 1030, scanner software file 2100 corresponds generally to the scanner software file 1100, the indicia database 2200 corresponds generally to the indicia database 1200, font information 2210 corresponds generally to the font information 1210, contour information 2220 corresponds generally to the contour information 1220, and print file 2300 corresponds generally to the print file 1300), though with any noted, shown, or inherent deviations.

In embodiment 200, the printing unit 270 includes a stationary array of print nozzles 272 in the housing inner area 105 (each substantially similar to a print nozzle 172 and actuated by a nozzle actuator 275 substantially similar to the nozzle actuators 175), and does not include a carriage or carriage actuators corresponding to the carriage 150 and the carriage actuators 160. In use, the processor 220 activates the desired nozzle actuators 275 in the stationary array in accordance with the print file 2300 to output the ink 20 through the nozzles 272, either in series or parallel, and thus apply the ink 20 to the indicia-receiving material 10 without any lateral or transverse movement relative to the stationary indicia-receiving material 10.

FIG. 12 illustrates (in use with stationary indicia-receiving material 10 and a transfer sheet 13) another mobile printer 300 that is substantially similar to the embodiment 100, except as specifically noted and/or shown, or as would be inherent. Further, those skilled in the art will appreciate that the embodiment 100 (and thus the embodiment 300) may be modified in various ways, such as through incorporating all or part of any of the various described embodiments, for example. For uniformity and brevity, reference numbers from 300 to 399 may be used to indicate elements corresponding to those discussed above numbered from 100 to 199 (e.g., computer memory 310 corresponds generally to the computer memory 110, processor 320 corresponds generally to the processor 120, scanner 330 corresponds generally to the scanner 130, input 340 corresponds generally to the input 140, output 345 corresponds generally to the output 145, carriage actuators 360 correspond generally to the carriage actuators 160, et cetera), though with any noted, shown, or inherent deviations. And reference numbers 3000 to 3999 may be used to indicate elements corresponding to those discussed above numbered from 1000 to 1999 (e.g., user input file 3000 corresponds generally to the user input file 1000, existing-indicia information 3010 corresponds generally to the existing-indicia information 1010, user input data 3030 corresponds generally to the user input data 1030, scanner software file 3100 corresponds generally to the scanner software file 1100, the indicia database 3200 corresponds generally to the indicia database 1200, font information 3210 corresponds generally to the font information 1210, contour information 3220 corresponds generally to the contour information 1220, and print file 3300 corresponds generally to the print file 1300), though with any noted, shown, or inherent deviations.

Embodiment 300 replaces the printing unit 170 with a transmitter 370 configured to transmit focused waves (e.g., a laser or other light-wave transmitter, an RF transmitter or other electromagnetic radiation transmitter, an ultrasound transmitter or other sound-wave transmitter, et cetera). The transmitter 370 is in data communication with the processor 320 and is coupled to the carriage for movement by the carriage actuators 360. The mobile printer 300 utilizes a transfer sheet 13 overlying the stationary indicia-receiving material 10. The transfer sheet 13 is configured to change pigmentation of areas of the indicia-receiving material 10 underlying areas of the transfer sheet 13 receiving focused waves, and the transmitter 370 is configured complementary to the transfer sheet 13 such that activation of the transmitter 370 causes the transfer sheet 13 to change pigmentation of areas of the indicia-receiving material 10 underlying areas of the transfer sheet 13 receiving focused waves from the transmitter 370.

The scanner 330 of the mobile printer 300 may include a camera located outside the housing inner area, and multiple cameras or other scanners 330 may be utilized (including some inside the housing inner area).

Use of the mobile printer 300 is substantially similar to use of the mobile printer 100, except that the transfer sheet 13 is paced over the indicia-receiving material 10 and the transmitter 370 transmits focused waves to the transfer sheet 13, which in turn alters the pigmentation of the indicia-receiving material 10 as desired (instead of emitting ink from the printing unit 170).

FIG. 13 illustrates (in use with stationary indicia-receiving material 10 and a transfer sheet 13) another mobile printer 400 that is substantially similar to the embodiment 300, except as specifically noted and/or shown, or as would be inherent. Further, those skilled in the art will appreciate that the embodiment 300 (and thus the embodiment 400) may be modified in various ways, such as through incorporating all or part of any of the various described embodiments, for example. For uniformity and brevity, reference numbers from 400 to 499 may be used to indicate elements corresponding to those discussed above numbered from 300 to 399 (e.g., computer memory 410 corresponds generally to the computer memory 310, processor 420 corresponds generally to the processor 320, scanner 430 corresponds generally to the scanner 330, input 440 corresponds generally to the input 340, output 445 corresponds generally to the output 345, et cetera), though with any noted, shown, or inherent deviations. And reference numbers 4000 to 4999 may be used to indicate elements corresponding to those discussed above numbered from 3000 to 3999 (e.g., user input file 4000 corresponds generally to the user input file 3000, existing-indicia information 4010 corresponds generally to the existing-indicia information 3010, user input data 4030 corresponds generally to the user input data 3030, scanner software file 4100 corresponds generally to the scanner software file 3100, the indicia database 4200 corresponds generally to the indicia database 3200, font information 4210 corresponds generally to the font information 3210, contour information 4220 corresponds generally to the contour information 3220, and print file 4300 corresponds generally to the print file 3300), though with any noted, shown, or inherent deviations.

In embodiment 400, the transmitter 470 includes a stationary array of transmitters in the housing inner area, and does not include a carriage or carriage actuators corresponding to the carriage and the carriage actuators 360. In use, the processor 420 activates (either in series or parallel) the desired transmitters 470 in the stationary array in accordance with the print file 4300 to transmit focused waves to the transfer sheet 13, which in turn alters the pigmentation of the indicia-receiving material 10 as desired.

FIG. 14 illustrates another mobile printer 500 which is substantially similar to the embodiment 100, except as specifically noted and/or shown, or as would be inherent. Further, those skilled in the art will appreciate that the embodiment 100 (and thus the embodiment 500) may be modified in various ways, such as through incorporating all or part of any of the various described embodiments, for example. For uniformity and brevity, reference numbers from 500 to 599 may be used to indicate elements corresponding to those discussed above numbered from 100 to 199 (e.g., computer memory 510 corresponds generally to the computer memory 110, processor 520 corresponds generally to the processor 120, scanner 530 corresponds generally to the scanner 130, input 540 corresponds generally to the input 140, output 545 corresponds generally to the output 145, et cetera), though with any noted, shown, or inherent deviations. And reference numbers 5000 to 5999 may be used to indicate elements corresponding to those discussed above numbered from 1000 to 1999 (e.g., user input file 5000 corresponds generally to the user input file 1000; existing-shape information 5010 corresponds generally to the existing-indicia information 1010; user input data 5030 corresponds generally to the user input data 1030; scanner software file 5100 corresponds generally to the scanner software file 1100; the contour database 5200 corresponds generally to the indicia database 1200, though here, the contour database 5200 includes, for example, information allowing specific contours of a component piece to be recognized; contour information 5220 corresponds generally to the contour information 1220, although here, the contour information includes, for example, geometric routines for matching/filling lines in the existing contour of the component piece, and for creating other lines/shapes on the component; and print file 5300 corresponds generally to the print file 1300), though with any noted, shown, or inherent deviations.

In embodiment 500, the printer is configured to behave as a three-dimensional (3D) printer with the ability to add material to an existing component piece based on the component's then-existing shape as compared to a desired shape or a shape of the component piece prior to damage occurring to the component piece. Accordingly, in embodiment 500, the existing-indicia information 1010 is replaced with existing-shape information 5010. The existing-shape information may include, for example, the general shape of a product or component piece that requires additive material to either supplement the component, or to fix a component that may be broken. Font information 1210 is not required in embodiment 500, as it may be unnecessary. The print file 5300 is similar to print file 1300, although here, the print file 5300 is configured for three-dimensional printing on the component piece.

Because the printer 500 is configured for additive printing, the carriage 550 may be equipped with extendable legs, or may be provided within a frame. The printing unit 570 is coupled to and movable with the carriage 550, as described above.

The printing unit 570 may include an output nozzle 572, a supply passage 574 for supplying material from a reservoir 580 to the output nozzle 572, and a nozzle actuator 575 in communication with the processor 520 for causing the material to pass from the output nozzle 572.

Programming, for example in the scanner software file 5100, causes the scanning device 530 to obtain (in some embodiments, repeatedly obtain) the existing-contour information 5010 for the component piece, and causes the obtained information 5010 to be stored. Other programming (e.g., in the user input file 5000) allows input data 5030 to be obtained through the input 540 and stored, if desired. The input data 5030 may include, for example, desired textual and non-textual indicia to be printed on the component piece in addition to the additive material being added thereto. And still other programming causes the processor 520 to create the print file 5300 based on data from the existing-indicia information 5010, the user input data 5030, and the indicia database 5200. And using the print file 5300, the processor 520 causes the carriage actuators 560 to selectively move the carriage in a defined manner and causes the nozzle actuator 575 to expel the material from the output nozzle 572 to apply the material to the component piece. If the existing-contour information 5010 is repeatedly obtained, programming may compare the obtained existing-indicia information 5010 to identify movement of the housing 501 relative to the component piece—allowing adjustments to be made in the 3D printing process.

The mobile printer 500 may be used to provide additive material to any three-dimensional object in need thereof. In one embodiment, the three-dimensional object is an object that can be moved by a person (e.g., a toy, a miniature replica, a component part for a machine). In other embodiments, the three-dimensional object may be stationary (e.g., an area of roadway having a pothole defined therein, or a chipped tooth). In any event, the mobile printer 500 may be used to determine an area of the three-dimensional object that is missing an area of material, and to add material to the object to restore the object to its original, or near original, state. Those of skill in the art will understand that the additive material may be any material that can pass from the printer 500 to the three-dimensional object, including but not limited to plastic, ceramic-forming materials (e.g., processed clays or other natural or synthetic ceramic-forming materials), asphalt, paint (ink), light cure composite resin (such as that used for dental equipment) or any other material.

According to embodiments, the material may need to be leveled or smoothed to the surface of the three-dimensional object (e.g., asphalt applied to an area of a pothole). The screed 595 may be lowered such that it contacts the three-dimensional object after application of the material, and levels the material by moving across the surface. When necessary, additional material may be required, and the process may repeat to ensure that sufficient material is added to the three-dimensional object. The screed 595 may be stored when not in use so as not to interfere with the application of the material to the three-dimensional object.

In some embodiments, the application of certain materials may require a curing process. For example, ceramic objects are typically formed upon the application of heat to the ceramic-forming materials. In such instances, the mobile printer 500 may further include means for curing the material 590 after it is applied to the three-dimensional object. This may include a heater, a UV light, a tungsten halogen light, a LED light, a plasma arc curing light, a laser, or any other device needed to cure the specific material used with the printer 500.

The following description is an example of the mobile printer 500 in use with a component piece according to an embodiment. At step S500 of method S50, the processor 520 obtains user input data 5030 via the input 540 and stores the user input data 5030 in the computer memory 510. And at step S510, the processor 520 obtains existing-contour information 5010 via the scanner 530 and stores the existing-indicia information 5010 in the memory 510. At step S520, the processor 520 creates print file 5300 based on data from the existing-contour information 5010, the user input data 5030, and the indicia database 5200.

After step S520, the process S50 proceeds to steps S530 and S540. There, the processor 520 causes the carriage actuators 560 to move the carriage 550 in accordance with the print file 5300, and causes the nozzle actuator 575 to selectively allow the material to flow through the supply passage 574 and the output nozzle 572 to apply the material to the component piece. After steps S530 and S540, the processor 520 determines at S550 if the print file 5300 has been fully executed for the material. If not, the process S50 returns to steps S530 and S540. In embodiments, the screed 595 may be utilized to smooth and/or level the material and complete the executed of the print file 5300. Where necessary, once the print file 5300 is fully executed, the curing process may be started by activating the curing device 590. The process S50 ends at step S560.

Many different arrangements of the various components depicted, as well as components not shown, are possible without departing from the spirit and scope of the present invention. Embodiments of the present invention have been described with the intent to be illustrative rather than restrictive. Alternative embodiments will become apparent to those skilled in the art that do not depart from its scope. A skilled artisan may develop alternative means of implementing the aforementioned improvements without departing from the scope of the present invention. It will be understood that certain features and subcombinations are of utility and may be employed without reference to other features and subcombinations and are contemplated within the scope of the claims. The specific configurations and contours set forth in the accompanying drawings are illustrative and not limiting. Some steps may be performed in different orders than described herein. 

1. A mobile printer for providing additive material to a three-dimensional component piece in need thereof, the mobile printer comprising: a non-transitory computer memory; a processor in data communication with the computer memory; a housing configured to rest atop the three-dimensional component piece, the housing comprising: a first material reservoir; and an output nozzle in communication with the material reservoir; a scanning device for obtaining existing contour information, the scanning device being in data communication with the processor; means in data communication with the processor for causing the material to pass from the output device; a contour database accessible by the processor, the contour database having contour information; programming causing the scanning device to obtain the existing contour information; programming causing the computer memory to store the obtained existing contour information; programming causing the processor to create a print file based on data from each of: (a) the obtained existing contour information; (b) the contour database; and programming selectively actuating the means for causing material from the first material reservoir to pass from the output nozzle, whereby applying the material to the three-dimensional component piece in need thereof; wherein the programming selectively actuating the means for causing the material to pass from the output nozzle utilizes the print file.
 2. The mobile printer of claim 1, wherein the housing comprises a plurality of legs, wherein the legs are extendable to position the housing above the three-dimensional component piece.
 3. The mobile printer of claim 1, wherein the scanning device is coupled to the housing and positioned to obtain the existing contour information of the three-dimensional component piece.
 4. The mobile printer of claim 1, wherein the scanning device comprises a camera.
 5. The mobile printer of claim 1, wherein the means in data communication with the processor for causing the material to pass from the output nozzle is a heater.
 6. The mobile printer of claim 1, wherein the means in data communication with the process for causing the material to pass from the output nozzle is a piezoelectric actuator.
 7. The mobile printer of claim 1, further comprising: programming causing the scanning device to repeatedly obtain updated existing contour information; programming causing the computer memory to store the updated existing contour information; and programming comparing the stored existing contour information to identify movement of the output device relative to the three-dimensional component piece.
 8. The mobile printer of claim 1, further comprising: a curing device; and programming causing the curing device to cure the material after the material is applied to the three-dimensional component piece in need thereof
 9. The mobile printer of claim 1, further comprising: a screed; and programming causing the screed to move across a surface of the three-dimensional component piece after the material is applied to the three-dimensional component piece to smooth and level the material relative to the surface of the three-dimensional component piece.
 10. The mobile printer of claim 9, further comprising: programming causing the scanning device to obtain updated existing contour information after movement of the screed across the surface of the three-dimensional component piece; programming causing the computer memory to store the updated existing contour information; and programming comparing the stored existing contour information to identify further movement of the output device relative to the three-dimensional component piece.
 11. The mobile printer of claim 1, wherein the three-dimensional component piece is an area of roadway having a pothole formed therein; and wherein the material is asphalt.
 12. The mobile printer of claim 1, wherein the housing is configured as a mouthpiece; and wherein three-dimensional component piece is a tooth.
 13. A three-dimensional printer for providing additive material to an object in need thereof, the printer comprising: a non-transitory computer memory; a processor in data communication with the computer memory; an input device in data communication with the processor; a housing configured to rest atop the three-dimensional object, the housing comprising: a first material reservoir holding a first material; a first output device in communication with the first material reservoir; a second material reservoir holding a second material; and a second output device in communication with the second material reservoir; a scanning device for obtaining existing contour information, the scanning device being in data communication with the processor; means in data communication with the processor for causing the first material to pass from the first output device; means in data communication with the process for causing the second material to pass from the second output device; a contour database accessible by the processor, the contour database having contour information; programming causing the scanning device to obtain the existing contour information; programming causing the computer memory to store the obtained existing contour information; programming causing the processor to create a first print file based on data from each of: (a) the obtained existing contour information; and (b) the contour database; and programming selectively actuating the means for causing the first material from the first material reservoir to pass from the first output device, whereby applying the first material to the three-dimensional component piece in need thereof; programming causing the processor to create a second print filed based on date from the input device; programming selectively actuating the means for causing the second material from the second material reservoir to pass from the second output device, whereby applying the second material to the three-dimensional component piece thereof; wherein the programming selectively actuating the means for causing the first material to pass from the first output device utilizes the first print file; and wherein the programming selectively actuating the means for causing the second material to pass from the second output device utilizes the second print file.
 14. The printer of claim 13, wherein the first material and the second material are not the same.
 15. The printer of claim 14, wherein the second material is an ink.
 16. The printer of claim 13, wherein at least one of the first material and the second material is a material configured to be cured.
 17. The printer of claim 16, further comprising: a curing device; and programming causing the curing device to cure the material after the material is applied to the three-dimensional component piece in need thereof
 18. The printer of claim 17, wherein the curing device comprises at least one item selected from the group consisting of a heater, a UV light, a tungsten halogen light, an LED light, a plasma arc curing light, and a laser.
 19. A three-dimensional printer for providing additive material to an object in need thereof, the printer comprising: a non-transitory computer memory; a processor in data communication with the computer memory; a material reservoir; an output device in communication with the material reservoir; a scanning device for obtaining existing contour information about the object, the scanning device being in data communication with the processor; a contour database accessible by the processor, the contour database having contour information about the object; programming causing the scanning device to obtain the existing contour information; programming causing the computer memory to store the obtained existing contour information; programming causing the processor to create a print file based on data from each of: (a) the obtained existing contour information; (b) the contour database; and programming selectively actuating the output device to apply the material from the material reservoir to the object in need thereof; wherein the programming selectively actuating the output device to apply the material from the material reservoir to the object in need thereof utilizes the print file.
 20. The printer of claim 19, further comprising: programming causing the scanning device to repeatedly obtain updated existing contour information; programming causing the computer memory to store the updated existing contour information; and programming comparing the stored existing contour information to identify movement of the output device relative to the object.
 21. A mobile printer, comprising: a non-transitory computer memory; a processor in data communication with the computer memory and an input device; a scanning device positioned to obtain information, the scanning device being in data communication with the processor; a reservoir of material; an applicator in communication with the reservoir; a database accessible by the processor, the database having application information; programming causing the scanning device to obtain non-textual information; programming causing the computer memory to store the obtained non-textual information; programming causing the processor create an application file based on each of: (a) the obtained non-textual information; (b) output from the input device; and (c) the database; and programming using the application file to selectively cause the applicator to apply the material to a stationary surface; wherein the non-textual information comprises at least one item selected from the group consisting of tone information and contour information.
 22. The mobile printer of claim 21, wherein the material is ink.
 23. The mobile printer of claim 21, further comprising means for leveling or smoothing the material after the material is applied.
 24. The mobile printer of claim 21, wherein the material is asphalt. 